Method and Apparatus for Beam Management in Communication System Supporting Vehicle-To-Everything Communication

1. An operation method of a platoon member (PM) participating in platooning in a communication system, comprising: receiving, by a controller, from a platooning leader (PL) participating in the platooning, information regarding beam configuration between the PL and a base station; determining, by the controller, a beam reception range based on a first receiving direction of the PL, the first receiving direction being indicated by the information regarding beam configuration; measuring, by the controller, a signal quality of a first transmission beam of the base station by changing a receiving direction of the PM within the beam reception range, the first transmission beam being indicated by the information on beam configuration; and determining, by the controller, a receiving direction in which the first transmission beam has a best signal quality as a final receiving direction.

2. The operation method according to claim 1 , wherein the information regarding beam configuration includes information that indicates the first transmission beam of the base station, information that indicates the first receiving direction of the PL, and an identifier of a cell to which the PL belongs.

3. The operation method according to claim 1 , wherein when a cell to which the PM belongs is equal to a cell to which the PL belongs, the information regarding beam configuration is used for beam configuration between the PM and the base station.

4. The operation method according to claim 1 , wherein when a link quality between the PM and the PL or a link quality between the PM and the base station is higher than or equal to a first threshold, the information regarding beam configuration is used for beam configuration between the PM and the base station.

5. The operation method according to claim 1 , wherein when a speed of the PM is less than or equal to a second threshold, the information regarding beam configuration is used for beam configuration between the PM and the base station.

6. The operation method according to claim 1 , wherein the information regarding beam configuration is received via a medium access control (MAC) control element (CE) or sidelink control information (SCI).

7. The operation method according to claim 1 , further comprising: transmitting, by the controller, information that indicates the final receiving direction to the base station; and performing, by the controller, communication with the base station based on the first transmission beam and the final receiving direction.

8. An operation method of a platoon member (PM) participating in platooning in a communication system, comprising: receiving, by a controller, from a platoon leader (PL) participating in the platooning, information regarding beam configuration between the PL and a base station; measuring, by the controller, signal qualities of a plurality of transmission beams of the base station within a beam transmission range determined based on a first transmission beam of the base station in a first receiving direction of the PL, the first transmission beam and the first receiving direction being indicated by the information regarding beam configuration; and determining, by the controller, a transmission beam having a best signal quality among the plurality of transmission beams as a final transmission beam.

9. The operation method according to claim 8 , wherein the information regarding beam configuration includes information that indicates the first transmission beam of the base station, information that indicates the first receiving direction of the PL, and an identifier of a cell to which the PL belongs.

10. The operation method according to claim 8 , wherein the information regarding beam configuration is used for beam configuration between the PM and the base station when at least one of a condition that a cell to which the PM belongs is equal to a cell to which the PL belongs, a condition that a link quality between the PM and the PL is higher than a first threshold, a condition that a link quality between the PM and the base station is higher than a second threshold, and a condition that a speed of the PM is equal to or less than a third threshold is satisfied.

11. The operation method according to claim 8 , further comprising: transmitting, by the controller, information that indicates the final transmission beam to the base station; and communicating, by the controller, with the base station based on the final transmission beam and the first receiving direction.

12. An operation method of a first platoon member (PM) participating in platooning in a communication system, comprising: receiving, by a controller, from a platoon leader (PL) participating in the platooning, information regarding beam configuration between the PL and a second PM; determining, by the controller, a beam reception range based on a first receiving direction of the second PM, the first receiving direction being indicated by the information regarding beam configuration; measuring, by the controller, a signal quality of a first transmission beam of the PL by changing a receiving direction of the first PM within the beam reception range, the first transmission beam being indicated by the information regarding beam configuration; and determining, by the controller, a receiving direction in which the first transmission beam has a best signal quality as a final receiving direction, wherein the second PM is located after the PL, and the first PM is located after the second PM.

13. The operation method according to claim 12 , wherein the information regarding beam configuration includes information that indicates the first transmission beam of the PL, information that indicates the first receiving direction of the second PM, and an identifier of a cell to which the PL belongs.

14. The operation method according to claim 12 , wherein the information regarding beam configuration is used for beam configuration between the first PM and the PL when at least one of a condition that a cell to which the first PM belongs is equal to a cell to which the PL belongs, a condition that a link quality between the first PM and the PL is higher than a first threshold, a condition that a link quality between the first PM and the second PM is higher than a second threshold, and a condition that a speed of the first PM is equal to or less than a third threshold is satisfied.

15. The operation method according to claim 12 , further comprising: transmitting, by the controller, information that indicates the final receiving direction to the PL; and performing, by the controller, communication with the PL based on the final receiving direction and the first transmission beam.

16. The operation method according to claim 12 , further comprising: transmitting, by the controller, a reference signal to a third PM located after the first PM using a transmission beam equal to the first transmission beam; receiving, by the controller, from the third PM, information that indicates a final receiving direction of the third PM determined based on the reference signal; and communicating, by the controller, with the third PM based on the first transmission beam and the final receiving direction of the third PM.

17. The operation method according to claim 12 , further comprising: determining, by the controller, a beam transmission range based on the first transmission beam; transmitting, by the controller, a reference signal to a third PM located after the first PM using a plurality of beams within the beam transmission range; receiving, by the controller, from the third PM, information that indicates a final transmission beam determined based on the reference signal; and communicating, by the controller, with the third PM based on the final transmission beam and the first receiving direction.

18. An operation method of a first platoon member (PM) participating in platooning in a communication system, comprising: receiving, by the controller, from a platoon leader (PL) participating in the platooning, information regarding beam configuration between the PL and a second PM; measuring, by the controller, signal qualities of a plurality of transmission beams of the PL within a beam transmission range determined based on a first transmission beam of the PL in a receiving direction equal to a first receiving direction of the second PM, the first transmission beam and the first receiving direction being indicated by the information on beam configuration; and determining, by the controller, a transmission beam having a best signal quality among the plurality of transmission beams as a final transmission beam, wherein the second PM is located after the PL, and the first PM is located after the second PM.

19. The operation method according to claim 18 , further comprising: transmitting, by the controller, a reference signal to a third PM located after the first PM using a transmission beam equal to the first transmission beam; receiving, by the controller, from the third PM, information that indicates a final receiving direction of the third PM determined based on the reference signal; and communicating, by the controller, with the third PM based on the first transmission beam and the final receiving direction of the third PM.

20. The operation method according to claim 18 , further comprising: determining, by the controller, a beam transmission range based on the first transmission beam; transmitting, by the controller, a reference signal to a third PM located after the first PM using a plurality of beams within the beam transmission range; receiving, by the controller, from the third PM, information that indicates a final transmission beam determined based on the reference signal; and communicating, by the controller, with the third PM based on the final transmission beam and the first receiving direction.